package controller import ( "math" "strconv" "time" "github.com/tidwall/gjson" "github.com/tidwall/tile38/controller/glob" "github.com/tidwall/tile38/controller/server" "github.com/tidwall/tile38/geojson" ) // FenceMatch executes a fence match returns back json messages for fence detection. func FenceMatch(hookName string, sw *scanWriter, fence *liveFenceSwitches, metas []FenceMeta, details *commandDetailsT) [][]byte { msgs := fenceMatch(hookName, sw, fence, metas, details) if len(fence.accept) == 0 { return msgs } nmsgs := make([][]byte, 0, len(msgs)) for _, msg := range msgs { if fence.accept[gjson.GetBytes(msg, "command").String()] { nmsgs = append(nmsgs, msg) } } return nmsgs } func appendJSONTimeFormat(b []byte, t time.Time) []byte { b = append(b, '"') b = t.AppendFormat(b, "2006-01-02T15:04:05.999999999Z07:00") b = append(b, '"') return b } func jsonTimeFormat(t time.Time) string { var b []byte b = appendJSONTimeFormat(b, t) return string(b) } func appendHookDetails(b []byte, hookName string, metas []FenceMeta) []byte { if len(hookName) > 0 { b = append(b, `,"hook":`...) b = appendJSONString(b, hookName) } if len(metas) > 0 { b = append(b, `,"meta":{`...) for i, meta := range metas { if i > 0 { b = append(b, ',') } b = appendJSONString(b, meta.Name) b = append(b, ':') b = appendJSONString(b, meta.Value) } b = append(b, '}') } return b } func hookJSONString(hookName string, metas []FenceMeta) string { return string(appendHookDetails(nil, hookName, metas)) } func fenceMatch(hookName string, sw *scanWriter, fence *liveFenceSwitches, metas []FenceMeta, details *commandDetailsT) [][]byte { if details.command == "drop" { return [][]byte{[]byte(`{"command":"drop"` + hookJSONString(hookName, metas) + `,"time":` + jsonTimeFormat(details.timestamp) + `}`)} } if len(fence.glob) > 0 && !(len(fence.glob) == 1 && fence.glob[0] == '*') { match, _ := glob.Match(fence.glob, details.id) if !match { return nil } } if details.obj == nil || !details.obj.IsGeometry() { return nil } if details.command == "fset" { sw.mu.Lock() nofields := sw.nofields sw.mu.Unlock() if nofields { return nil } } if details.command == "del" { return [][]byte{[]byte(`{"command":"del"` + hookJSONString(hookName, metas) + `,"id":` + jsonString(details.id) + `,"time":` + jsonTimeFormat(details.timestamp) + `}`)} } var roamkeys, roamids []string var roammeters []float64 var detect string = "outside" if fence != nil { if fence.roam.on { if details.command == "set" { roamkeys, roamids, roammeters = fenceMatchRoam(sw.c, fence, details.key, details.id, details.obj) } if len(roamids) == 0 || len(roamids) != len(roamkeys) { return nil } detect = "roam" } else { // not using roaming match1 := fenceMatchObject(fence, details.oldObj) match2 := fenceMatchObject(fence, details.obj) if match1 && match2 { detect = "inside" } else if match1 && !match2 { detect = "exit" } else if !match1 && match2 { detect = "enter" if details.command == "fset" { detect = "inside" } } else { if details.command != "fset" { // Maybe the old object and new object create a line that crosses the fence. // Must detect for that possibility. if details.oldObj != nil { ls := geojson.LineString{ Coordinates: []geojson.Position{ details.oldObj.CalculatedPoint(), details.obj.CalculatedPoint(), }, } temp := false if fence.cmd == "within" { // because we are testing if the line croses the area we need to use // "intersects" instead of "within". fence.cmd = "intersects" temp = true } if fenceMatchObject(fence, ls) { detect = "cross" } if temp { fence.cmd = "within" } } } } } } if details.fmap == nil { return nil } if fence.detect != nil && !fence.detect[detect] { return nil } sw.mu.Lock() sw.fmap = details.fmap sw.fullFields = true sw.msg.OutputType = server.JSON sw.writeObject(ScanWriterParams{ id:details.id, o: details.obj, fields: details.fields, noLock: true, }) if sw.wr.Len() == 0 { sw.mu.Unlock() return nil } res := make([]byte, sw.wr.Len()) copy(res, sw.wr.Bytes()) sw.wr.Reset() if len(res) > 0 && res[0] == ',' { res = res[1:] } if sw.output == outputIDs { res = []byte(`{"id":` + string(res) + `}`) } sw.mu.Unlock() if fence.groups == nil { fence.groups = make(map[string]string) } groupkey := details.key + ":" + details.id var group string var ok bool if detect == "enter" { group = bsonID() fence.groups[groupkey] = group } else if detect == "cross" { group = bsonID() delete(fence.groups, groupkey) } else { group, ok = fence.groups[groupkey] if !ok { group = bsonID() fence.groups[groupkey] = group } } msgs := make([][]byte, 0, 4) if fence.detect == nil || fence.detect[detect] { if len(res) > 0 && res[0] == '{' { res = makemsg(details.command, group, detect, hookName, metas, details.key, details.timestamp, res[1:]) } msgs = append(msgs, res) } switch detect { case "enter": if fence.detect == nil || fence.detect["inside"] { msgs = append(msgs, makemsg(details.command, group, "inside", hookName, metas, details.key, details.timestamp, res[1:])) } case "exit", "cross": if fence.detect == nil || fence.detect["outside"] { msgs = append(msgs, makemsg(details.command, group, "outside", hookName, metas, details.key, details.timestamp, res[1:])) } case "roam": if len(msgs) > 0 { var nmsgs [][]byte msg := msgs[0][:len(msgs[0])-1] for i, id := range roamids { nmsg := append([]byte(nil), msg...) nmsg = append(nmsg, `,"nearby":{"key":`...) nmsg = appendJSONString(nmsg, roamkeys[i]) nmsg = append(nmsg, `,"id":`...) nmsg = appendJSONString(nmsg, id) nmsg = append(nmsg, `,"meters":`...) nmsg = append(nmsg, strconv.FormatFloat(roammeters[i], 'f', -1, 64)...) if fence.roam.scan != "" { nmsg = append(nmsg, `,"scan":[`...) func() { sw.c.mu.Lock() defer sw.c.mu.Unlock() col := sw.c.getCol(roamkeys[i]) if col != nil { obj, _, ok := col.Get(id) if ok { nmsg = append(nmsg, `{"id":`+jsonString(id)+`,"self":true,"object":`+obj.JSON()+`}`...) } pattern := id + fence.roam.scan iterator := func(oid string, o geojson.Object, fields []float64) bool { if oid == id { return true } if matched, _ := glob.Match(pattern, oid); matched { nmsg = append(nmsg, `,{"id":`+jsonString(oid)+`,"object":`+o.JSON()+`}`...) } return true } g := glob.Parse(pattern, false) if g.Limits[0] == "" && g.Limits[1] == "" { col.Scan(0, false, iterator) } else { col.ScanRange(0, g.Limits[0], g.Limits[1], false, iterator) } } }() nmsg = append(nmsg, ']') } nmsg = append(nmsg, '}') nmsg = append(nmsg, '}') nmsgs = append(nmsgs, nmsg) } msgs = nmsgs } } return msgs } func makemsg(command, group, detect, hookName string, metas []FenceMeta, key string, t time.Time, tail []byte) []byte { var buf []byte buf = append(append(buf, `{"command":"`...), command...) buf = append(append(buf, `","group":"`...), group...) buf = append(append(buf, `","detect":"`...), detect...) buf = append(buf, '"') buf = appendHookDetails(buf, hookName, metas) buf = appendJSONString(append(buf, `,"key":`...), key) buf = appendJSONTimeFormat(append(buf, `,"time":`...), t) buf = append(append(buf, ','), tail...) return buf } func fenceMatchObject(fence *liveFenceSwitches, obj geojson.Object) bool { if obj == nil { return false } if fence.roam.on { // we need to check this object against return false } if fence.cmd == "nearby" { return obj.Nearby(geojson.Position{X: fence.lon, Y: fence.lat, Z: 0}, fence.meters) } if fence.cmd == "within" { if fence.o != nil { return obj.Within(fence.o) } return obj.WithinBBox(geojson.BBox{ Min: geojson.Position{X: fence.minLon, Y: fence.minLat, Z: 0}, Max: geojson.Position{X: fence.maxLon, Y: fence.maxLat, Z: 0}, }) } if fence.cmd == "intersects" { if fence.o != nil { return obj.Intersects(fence.o) } return obj.IntersectsBBox(geojson.BBox{ Min: geojson.Position{X: fence.minLon, Y: fence.minLat, Z: 0}, Max: geojson.Position{X: fence.maxLon, Y: fence.maxLat, Z: 0}, }) } return false } func fenceMatchRoam(c *Controller, fence *liveFenceSwitches, tkey, tid string, obj geojson.Object) (keys, ids []string, meterss []float64) { col := c.getCol(fence.roam.key) if col == nil { return } p := obj.CalculatedPoint() col.Nearby(0, 0, p.Y, p.X, fence.roam.meters, math.Inf(-1), math.Inf(+1), func(id string, obj geojson.Object, fields []float64) bool { var match bool if id == tid { return true // skip self } if fence.roam.pattern { match, _ = glob.Match(fence.roam.id, id) } else { match = fence.roam.id == id } if match { keys = append(keys, fence.roam.key) ids = append(ids, id) meterss = append(meterss, obj.CalculatedPoint().DistanceTo(p)) } return true }, ) return }